KR102095435B1 - Station smart shelter - Google Patents

Abstract

The present invention relates to a smart shelter, which measures environmental information such as fine dust, temperature and humidity in a place in which people stay for a predetermined period of time to provide the measured information to one or more of the shelter, public transportation or terminals, thereby providing accurate air information of an actual living space.

Description

Stop smart shelter

The present invention is a smart shelter, and more specifically, a bus stop, a tram stop, a park, a rest area, a smoking booth, a drowsy shelter, etc., where environmental information (e.g., fine dust, temperature, Humidity, etc.) is measured, and it relates to a smart shelter in which measurement information is provided to a shelter, a bus, or a terminal.

In general, the shelter (shelter) is installed with a canopy (canopy) to avoid sunlight, snow, rain, or has a structure that includes an open door.

Among them, in order to avoid simple rain, a shelter in the form of a rain screen is installed in the park, and an open structure including lighting, bus information system, and chairs is installed in the bus stop.

That is, the existing open shelter is inconvenient for users to be exposed to the heat in summer and cold in winter.

In addition, in recent years, as the concentration of fine dust increases, air pollution and fine dust concentration in bus stops installed on the roadside are at a serious level, and in pregnant women, it can cause disease, making it difficult to use buses.

Fine dust is divided into fine dust PM-10 with a diameter less than 10㎛ and fine dust PM-2.5 with a diameter less than 2.5㎛.

In addition, because the fine dust is so small that it is invisible to the eye, it may remain in the air, penetrate the lungs through the respiratory tract, or move into the body along the blood vessels and adversely affect health.

In particular, the World Health Organization (WHO) has been providing air quality guidelines for fine dust since 1987, and in 2013, the International Agency for Research on Cancer (IARC) was responsible for fine dust. Was designated as a group 1 carcinogen for which carcinogenesis was confirmed.

Fine dust may have different ingredients depending on the region, season, and weather conditions.

In general, it is composed of lumps such as sulfate and nitrate formed by the reaction of air pollutants in the air, carbons generated when burning fossil fuels, black substances generated by soot or smoke entanglement, and minerals generated from surface dirt.

The fine dust composed of the above components is a chemical reaction in which sulfuric acid emitted from the process of burning fossil fuels combines with water vapor and ammonia in the atmosphere, or nitrogen oxides emitted from automobile exhaust gases combine with water vapor in the atmosphere, ozone, and ammonia. Is caused through.

The concentration of fine dust in Korea is still high compared to cities in major developed countries.

This is because the population density is high, and urbanization and industrialization are highly advanced, so there is a lot of fine dust emissions per unit area, and it is not advantageous even for geographical location and weather conditions.

Recently, fine dust information has been provided through weather forecasts, but the Ministry of Environment and local governments have very few environmental pollutants to measure it, and based on this, there is a limit to provide life pollution information on alleys, and a close environment such as roads and parks. It is difficult to obtain information.

As a background technology for solving such a problem, Patent Registration No. 10-1814188 (hereinafter referred to as Document 1), Patent Publication No. 10-2018-0116695 (hereinafter referred to as Document 2), Registered Patent Publication No. 10-1771367 There is a call (hereinafter referred to as Document 3) and a registered patent publication No. 10-1664394 (hereinafter referred to as Document 4).

Document 1 is a system for providing an air quality map using a transportation method, and is a system capable of measuring the air quality of the entire driving area by installing an air quality measuring terminal on a transportation means such as a taxi or a bus.

In the system of Document 1, since the air quality measurement terminal is installed in the transportation means, it is difficult to be accurate by the exhaust gas generated during the operation of the bus or taxi.

In addition, since the transportation means and the measurement terminal are combined, the air quality information is provided only in the vicinity of the road, so the measured value is relatively higher than that of India due to the exhaust gas generated from other cars, so reliability may not be used to use it as data.

Document 2 is an air quality notification device using a terminal, which measures air quality in the air and transmits the measured value to the requested terminal to generate a notification when the fine dust is measured above a set value.

The device of Document 2 only transmits measurement values to a terminal on which an application is executed through a measuring device installed in a public place, and there is a problem that a user waiting at a bus stop or a taxi stand is exposed to fine dust.

Document 3 is an integrated management system of air pollution information and traffic information, and is a system that measures the degree of air pollution in a place where a traffic information terminal is located and processes the measured data to provide information to the user.

Literature 4 is a public transportation means platform with weather information on the roadside and air pollutant concentration measurement, and is a platform that includes weather information and air pollutant measurement sensors to obtain weather information and pollutant information in the surrounding air.

The inventions of Documents 3 and 4 have the hassle of allowing the user to know the air information only through the unmanned information terminal disposed at the bus stop.

In addition, since the existing open bus stop is utilized, the user is forced to be exposed to fine dust while waiting for the bus.

<Background technical literature>

(Document 1) Registered Patent Publication No. 10-1814188

(Document 2) Publication No. 10-2018-0116695

(Document 3) Registered Patent Publication No. 10-1771367

(Document 4) Registered Patent Publication No. 10-1664394

An object of the present invention is to provide a multi-functional smart shelter, which is a space in which the users of public transportation are protected from fine dust, radon gas, and contaminated air, and solve the problems of the background art.

In addition, the present invention aims to combine the existing bus information system (BIS) and alleyway environmental information monitoring.

In other words, it is possible to provide accurate air pollution data of the living space.

Furthermore, the present invention aims to provide a safe space from various safety accidents or crimes by establishing a camera and a transmission system in a smart shelter and connected to 119 safety centers and emergency dispatch services.

Furthermore, the present invention aims to reduce the fine dust by installing a rainwater storage tank on the upper part of the smart shelter to sprinkle it on the road surface during drought, and reuse it in masonry park water.

Moreover, the present invention aims to utilize a conventional stop by applying a detachable method as needed by standardizing a smart shelter for another convenience.

In order to achieve the above object, the present invention is a power supply 100 for supplying power to the shelter (1); An internal measuring device 200 that measures the internal environment of the shelter; An external measuring device 300 for measuring the external environment of the shelter; A transmitting / receiving device 400 that transmits / receives information inside / outside the shelter to any one or more of a shelter server 10, a terminal 20, an external server 30, or public transportation 40 through a wired / wireless network. ); Includes an electric field display device 500 that displays information received from the shelter server 10 and / or external server 30, and a door 600 that includes air curtains to prevent inflow of fine dust when the user comes in and out. It is characterized by.

The internal measuring device 200 and the external measuring device 300 are precipitation, NO, NO ₂ , NOx, N ₂ O, NH ₃ , SO, SO ₂ , SOx, O ₃ , CO, CO ₂ , H ₂ , H ₂ S, O ₂ , VOC, formaldehyde, fine dust, ultrafine dust, radon, temperature, humidity, wind direction, wind speed, benzene, SF ₆ , He, galden, or any one of the malodorous substances can be measured Is done.

The external server 30 has its own data transmission / reception function, statistical analysis function, atmospheric modeling function using pre-entered terrain information, and information processing function, and operates itself, and is characterized by being able to interwork with an external institution server. do.

The shelter server 10 receives the measured information from the shelter 1 and transmits it to the external server 30, and the external server 30 receives processed air information through statistical analysis or atmospheric modeling. do.

In addition, the shelter server 10 receives information provided by the external server 30 and transmits it to any one or more of the electric field display device 500, the terminal 20, or the public transportation 40, or the shelter 1 It is characterized by being able to control the air cleaner, air conditioner, lighting device, and camera inside.

In the present invention, the interior of the shelter 1 is characterized in that it further includes any one or more of an air purifier, air conditioner, lighting device, camera, relief bell, Wi-Fi supply device, chair or digital charger.

In the present invention, outside the shelter (1) is characterized in that any one or more of rainwater storage tank 700, a solar panel or an energy storage device is further included.

The rainwater storage tank 700 is characterized in that the rainwater storage tank cover 710 cover is opened to store rainwater when the effective precipitation exceeds 1 mm / hr.

The electric field display device 500 is characterized in that it includes either a digital screen capable of displaying the received information or a touch screen capable of transmitting the standby information to the public transportation 40 by the user operating the standby button. do.

A method of providing environmental information on an alleyway according to an external environment using a smart shelter (S100) includes measuring external environmental information with the external measurement device 300 (S110); The measured external environment information is transmitted to the shelter server 10 by the transmission / reception device 400 (S120); Transmitting the organized information organized through the wired / wireless network to the external server 30 (S130); Transmitting the processed information through the standby modeling result and the data received from the external institution server to the shelter server 10 using the data received from the external server 30 (S140); It characterized in that it comprises the step (S150) of the environment information is sent to any one or more of the shelter 1, the terminal 20 or the public transport 40.

The environment information of the alleyway is characterized by including precipitation, air pollutants, fine dust, radon gas, temperature, and humidity information according to the terrain.

The smart shelter of the present invention has the effect that users using public transportation can be protected from various diseases by being protected from fine dust, radon gas, and contaminated air and provided with a comfortable space to wait.

In addition, the present invention has the effect of combining the existing bus information system with the monitoring of alleyway environmental information to receive accurate air pollution data of the living space to provide quality alley life information to citizens.

Furthermore, the present invention has an effect that can be utilized as a space that can be safely used by users from various safety accidents and crimes in connection with the 119 safety center and emergency dispatch service.

Furthermore, the present invention utilizes rainwater stored from the rainwater storage tank 700 in an air purifier, or reuses it for road sprinkling and tree landscaping, thereby eliminating filter replacement and maintenance costs and saving water resources.

Moreover, the present invention has an effect of shortening the manufacturing and installation period by utilizing a conventional stop by applying a detachable method as necessary by standardizing a smart shelter.

1 is a perspective view of a smart shelter according to the present invention.
2 is an exemplary flow of information exchange between a shelter and a shelter server according to the present invention between a terminal, an external server, and public transportation through a wired / wireless network.
<Description of code>
1: Shelter,
10: Shelter server, 20: Terminal, 30: External server, 40: Public transportation
100: power supply,
200: internal measuring device,
300: external measuring device,
400: transmission / reception device,
500: electric field display device,
600: door,
700: rainwater storage tank,
1,100: cover, 1,200: support, 1,300: wall

Hereinafter, the present invention will be described in detail through examples.

The objects, features, and advantages of the present invention will be readily understood through the following examples.

The present invention is not limited to the embodiments disclosed herein, and may be embodied in other forms. The embodiments disclosed herein are provided to sufficiently transmit the spirit of the present invention to a person having ordinary knowledge in the technical field to which the present invention pertains, and all conversions included in the technical spirit and technical scope of the present invention It should be understood to include, for example, equivalents or substitutes.

Therefore, the present invention should not be limited by the following examples, and it should be understood that all transformations included in the technical spirit and technical scope of the present invention are included. That is, a person having ordinary knowledge in the technical field to which the present invention pertains may variously modify the present invention by adding, changing, deleting, or adding components, without departing from the spirit of the present invention as set forth in the claims, or It will be changed, and it will be said that it is also included in the scope of the present invention.

The present invention can be applied with various transformations and can have various embodiments, and specific embodiments are illustrated in the drawings and described in detail. In the drawings, the size of an element or a relative size between elements may be somewhat exaggerated for a clear understanding of the present invention. In addition, the shape of the elements shown in the drawings may be slightly changed due to variations in the manufacturing process.

Therefore, the embodiments disclosed herein should not be limited to the shapes shown in the drawings, unless otherwise specified, and should be understood to include some degree of modification.

On the other hand, various embodiments of the present invention can be combined with any other embodiments, unless otherwise indicated. Any feature indicated as particularly preferred or advantageous may be combined with any other feature or features indicated as preferred or advantageous. That is, various aspects, features, embodiments or implementations of the invention may be used alone or in various combinations.

It should be understood that the terminology used herein is for describing a specific embodiment and is not intended to be limited by the claims, and all technical terms and scientific terms used in the present specification are conventional technology unless otherwise stated. It has the same meaning as commonly understood by a person with. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the description of the present invention, when it is determined that a detailed description of known technologies related to the present invention may obscure the subject matter of the present invention, the detailed description will be omitted.

Referring to FIG. 1, the shelter 1 includes a cover part 1,100 forming a space; A support part (1,200) for supporting the cover part (1,100); A wall portion 1,300 included between the support portion 1,200 and the support portion 1,200 'may be included.

In addition, the shelter 1 may be composed of a hexahedron, preferably a cuboid or a cube, but is not limited thereto.

The cover portion 1,100 may be used as fiber-reinforced plastics (FRP, Fiber Reinforced Plastics), which is reinforced with fibers, but is not limited thereto.

The FRP is reinforced with glass and carbon fiber and is called a thermosetting reinforced plastic, and is excellent in light weight, corrosion resistance, and moldability, and various molding methods are put into practical use, so that it is possible to integrally mold large products.

In addition, FRP has a specific gravity of about 1.5 to 2, which is lighter than ordinary steel materials and has excellent mechanical properties.

The support 1,200 may be made of aluminum or stainless steel, but is not limited thereto.

Aluminum is strong at low temperatures and has an advantage of reflecting infrared rays, ultraviolet rays, and electromagnetic waves.

In addition, aluminum is best applied to outdoor shelter exposed to rain or snow because it does not rust by forming an oxide film on the surface naturally in the air and prevents corrosion.

Furthermore, aluminum is a special aluminum in which any one or more of copper, manganese, magnesium, chromium, silica, copper, or zinc is mixed to improve strength as it is applied to the support portion 1,200 supporting the cover portion 1,100. It is good.

The stainless steel is advantageous in that it does not easily rust, does not corrode, and has excellent durability and heat resistance.

The wall portion 1,300 prevents inflow of wind, snow, rain, fine dust, etc., and may be made of glass or acrylic so that the user can check the external condition, and preferably may be made of glass, but is not limited thereto. Does not work.

In addition, the wall portion may paint the photocatalyst paint or attach a film.

When the photocatalyst paint is thermodynamically stable and non-toxic, so that fine dust adheres to the wall surface, the nitrogen oxide therein causes a chemical reaction with the photocatalyst.

At this time, nitrogen oxides disappear and carbon dioxide and water are discharged.

That is, the wall portion is painted with a photocatalyst paint, or has an air purifying action, an ultraviolet blocking action, a thermal blocking action, and a fine dust adsorption action as the film is attached.

As the glass, when the glass is destroyed, safety glass having stability so as not to harm the human body may be used.

The safety glass may be made of laminated glass or tempered glass, and preferably made of tempered glass.

Laminate glass is a synthetic resin film sandwiched between two pieces of glass.

Tempered glass is tempered by heating and quenching.

The acrylic has a light weight, an impact strength of 6 to 17 times stronger than that of tempered glass, and if broken, has the advantage of not being as dangerous as glass.

The shelter 1 may include a power supply device 100, an internal measurement device 200, an external measurement device 300, a transmission / reception device 400, an electric field display device 500, and a door 600.

The power supply 100 may supply photovoltaic energy or alternating current, which will be described later, to the shelter 1.

In order to obtain the photovoltaic energy, a solar panel is included on the top surface of the rainwater storage tank cover 710 formed on one side of the cover part 1,100, and an energy storage system (ESS) on the outside of the cover part 1,100, It may include an inverter.

The photovoltaic panel is a semiconductor device that converts light into electricity, and the minimum unit is called a cell, and the voltage from one cell is about 0.5 to 0.6V. It is also called a solar module because it is manufactured in a panel form to obtain a voltage of more than volts.

The energy storage device is a device that increases the energy efficiency by storing excess power and supplying power when power is needed or temporarily lacking power.

The power generated by the solar panel is generally transmitted to the KEPCO system, but it is possible to charge as it is connected to the energy storage device.

That is, in the present invention, a power storage device may be used to store excess power and enable future use.

The power storage device may use a battery, and preferably a lithium ion battery, a lead acid battery, a flow battery, or a NaS battery, but is not limited thereto.

The inverter is a power conversion device that converts direct current generated by a solar panel into alternating current, and simultaneously serves to transmit power.

As the solar panel is used in the present invention, there is almost no noise, no environmental pollution occurs, and the cost required for maintenance operation is very low compared to other power generation methods, and maintenance is easy.

The internal measuring device 200 may include an air pollutant measuring instrument, a fine dust measuring instrument, a radon gas measuring instrument, a thermometer, and a hygrometer inside the cover part 1,100 to measure the internal environment of the shelter 1, but is not limited thereto. Does not.

At this time, the air pollutant measuring instrument, the fine dust measuring instrument, the thermometer, and the hygrometer store the measurement information by itself, and transmit to the shelter server 10 through a wireless network so that the user can check the internal environment of the shelter 1 in real time.

The air pollutant meter is NO, NO ₂ , NOx, N ₂ O, NH ₃ , SO, SO ₂ , SOx, O ₃ , CO, CO ₂ , H ₂ , H ₂ S, O ₂ , VOC, formaldehyde, Benzene, SF ₆ , He, galden, or any one or more of the malodorous substances are measured. Preferably, NO ₂ , O ₃ , CO, CO ₂ , VOC, formaldehyde, benzene, and malodorous substances can be measured. Does not work.

The odor substance is a cause of unpleasant odor, and is a gaseous substance that harms the living environment, and may be, for example, hydrogen sulfide, mercaptans, amines, or other irritating gaseous substances, but is not limited thereto.

Preferably ammonia, methyl mercaptan, hydrogen sulfide, methyl sulfide, methyl disulfide, trimethylamine, acetaldehyde, styrene, propionaldehyde, butylaldehyde, n-valeraldehyde, i-valeraldehyde, toluene, xylene, methyl ethyl ketone , Methyl isobutyric ketone, butyracetate, propionic acid, n-butyric acid, n-valeric acid, i-valeric acid or i-butyric alcohol.

More preferably, any one or more of ammonia, methyl mercaptan, hydrogen sulfide, methyl sulfide, methyl disulfide, trimethylamine, acetaldehyde or styrene may be included, but is not limited thereto.

The fine dust measuring instrument can measure PM-1, PM-2.5m, PM-5, PM-10.

PM-1 means dust particles with a diameter of 1 µm or less, PM-2.5 means dust particles with a diameter of 2.5 µm or less, PM-5 with dust particles with a diameter of 5 µm or less, and PM-10 with dust particles with a diameter of 10 µm or less. it means.

The radon gas meter used was a known one capable of measuring radon gas in the room.

As the thermometer and hygrometer, known ones capable of measuring indoor temperature and humidity were used.

The external measuring device 300 may include a precipitation meter, an air pollutant meter, a fine dust meter, a radon gas meter, a thermometer, a hygrometer, and a wind meter on the outside of the cover unit 1,100 to measure the external environment of the shelter 1. However, it is not limited thereto.

At this time, the precipitation meter, air pollutant measuring instrument, fine dust measuring instrument, thermometer, hygrometer, and wind measuring instrument stores the measurement information itself, and transmits it to the shelter server 10 through a wireless network to transmit the external environment information of the shelter 1 in real time. User can check.

The precipitation meter measures precipitation to control that the rainwater storage tank cover 710 included in the rainwater storage tank 700 to be described later is opened and closed according to the set effective precipitation.

At this time, when the effective precipitation exceeds 1mm / hr, the rainwater storage tank cover 710 is opened and can be reused by storing rainwater.

If, if the effective precipitation is less than 1mm / hr, rainwater storage tank cover 710 may be set to close.

The air pollutant measuring instrument, fine dust measuring instrument, and radon gas measuring instrument were used as the internal measuring device 200.

As the thermometer and hygrometer, a known one capable of measuring external temperature and humidity was used.

The wind meter used a known one capable of measuring the wind direction, which is the direction in which the wind blows, and the wind speed, which is the speed of the wind.

The transmitting / receiving device 400 is formed on the outside of the cover part 1,100, and the information inside / outside the shelter 1 through a wired / wireless network is shelter server 10, terminal 20, external server 30. ) Or by public transport 40 or more, and through the shelter server 10 may receive another form of information.

The electric field display device 500 may be included on one side of the wall portion 1,300 to display information received from the shelter server 10 and / or the external server 30.

In addition, the electric field display device 500 may include either a digital screen capable of displaying the received information or a touch screen capable of transmitting standby information to the public transportation 40 by a user operating a standby button.

Particularly, when the touch screen is included, as the user operates the standby button and the standby information is transmitted to the public transportation 40, the bus driver confirms this, so that the information is transmitted in both directions, so that the user waits in the shelter 1 However, you can take the bus comfortably.

The door 600 may include one or more between the support portion 1,200 and the support portion 1,200 'to allow the user to enter or exit from the shelter 1.

In addition, the door 600 may include an air curtain at the top of the door 600 to prevent the inflow of fine dust when the user enters and exits, and prevents cold and warm air from escaping to the outside when the air conditioner is operated.

At this time, the door 600 may be an automatic sliding door, but is not limited thereto.

In addition, the door 600 may further include a button or an infrared sensor to recognize the user and operate automatically.

In order to provide a clean environment in the shelter 1, the inside of the shelter 1 may include any one or more of an air purifier, an air conditioner, a lighting device, a camera, a safety bell, a Wi-Fi supply device, a chair, or a digital charger.

The air purifier is installed inside the shelter (1) cover part (1,100), when the fine dust information and radon gas concentration measurement information measured from the internal measurement device 200 exceeds a predetermined reference value, it is automatically operated or , It can be driven by remote control.

In addition, the air cleaner is a structure capable of purifying air contaminated primarily by a wet air purification filter by water and an organic solvent and a secondary dry filter.

The water has an effect of saving resources by using rainwater stored in the rainwater storage tank 700 to be described later.

The organic solvent may be any one of ethanol, acetone, and alcohol, but is not limited thereto.

In the present invention, the shelter (1) is a structure that cannot be opened and ventilated, and thus, the first wet method is used to remove fine dust and radon gas from the shelter (1).

In particular, radon gas is soluble in water and better soluble in organic solvents.

That is, the primary wet method is to remove fine dust as well as remove radon gas by using water and an organic solvent together.

Thereafter, as well as purifying the contaminated air by a second dry method, dust, bacteria, and odor can be removed as the air passes through the filter.

The air conditioner is installed inside the shelter 1 cover 1,100, but a known ceiling type air conditioner is used, but is not limited thereto.

The ceiling-type air conditioner is evenly distributed with cold and warmth in the entire shelter 1, and a user who is waiting in the shelter 1 does not reach the hand and cannot press a button at random.

That is, it is possible to prevent environmental pollution by maintaining a proper indoor temperature.

In addition, the ceiling air conditioner may be automatically driven when the temperature is lower than or higher than a predetermined temperature than the measured temperature in the shelter 1.

Furthermore, if it is not automatically driven due to an error, it can be controlled remotely.

The preset temperature may be set to 24 to 26 ° C in summer and 19 to 23 ° C in winter, but is not limited thereto.

The lighting device is installed inside the shelter 1 cover portion 1,100, but may use light emitting diode (LED) lighting, but is not limited thereto.

At this time, the lighting device may include one or more illuminance sensors in the wall portion 1,300 to be automatically operated.

The camera is installed inside the shelter 1 cover unit 1,100, and is a 360 ° rotating digital camera that stores the captured image and transmits it to the shelter server 10 through a wireless network in real time.

Shelter (1) is a space that is used by a large number of unspecified people, and is exposed to various crimes, and thus has an effect of preventing it as a camera is installed.

The relief bell is installed inside the shelter (1) wall portion (1,300), and is wirelessly connected to the shelter server (10).

The Wi-Fi supply device may be installed inside the shelter 1 cover 1,100 to provide Wi-Fi information to a predetermined space inside or around the shelter 1.

In particular, as the Wi-Fi supply device is installed, the electric field display device 500 or the terminal 20 can be used while users wait in the shelter 1.

In particular, the electric field display device 500 provides real-time news, advertisements, and the like by the Wi-Fi supply device so that the user can obtain various information.

The chair may use a heating chair containing carbon material, but is not limited thereto.

The heating chair including carbon material has a structure that generates heat as electricity is supplied to the carbon material, so it is safe to use because there is no electric leakage or electric shock.

In particular, the heating chair containing carbon material uses carbon fiber having a high thermal conductivity, and has an advantage of less power consumption than general heating appliances.

The surface of the chair is preferably coated with flame-retardant transparent paint to be safe for fire.

The digital charger is installed inside the shelter (1) wall (1,300), it may include a cable that can charge the portable electronic device.

For monitoring environmental information on an alleyway outside the shelter 1, one or more of a rainwater storage tank 700, a solar panel, or an energy storage device may be included outside the shelter 1.

The rainwater storage tank 700 is installed outside the shelter 1 cover portion 1,100, stores rainwater, and may be made of any one of stainless steel, FRP, or aluminum, but is not limited thereto.

In order to prevent damage to the rainwater storage tank 700 installed outside the shelter 1 due to a typhoon in the summer, it is best to be made of stainless steel or FRP.

In addition, the rainwater storage tank 700 may include an rainwater storage tank cover 710 and an expansion / contraction device 720 to prevent evaporation of stored water when the effective precipitation is 1 mm / hr or less or when it does not rain.

The rainwater storage tank cover 710 may be opened when the effective precipitation exceeds 1 mm / hr to store rainwater.

The expansion / contraction device 720 may be formed in multiple stages to connect the rainwater storage tank 700 and the rainwater storage tank cover 710 so that the rainwater storage tank cover 710 moves up and down according to control information.

Furthermore, the rainwater storage tank 700 is a structure in which a hose is connected so that it can move under natural flow when necessary, and bypasses and flows without storing rainwater having a monthly flow level exceeding or an effective precipitation of 1 mm / hr or less. Can be set.

Furthermore, the size of the rainwater storage tank 700 is variable according to the size of the shelter 1, so the size is not limited.

A UV lamp is included inside the rainwater storage tank cover 710 to sterilize the stored rainwater.

The UV lamp may use a wavelength of 250 ~ 260nm, preferably 253.7nm wavelength, but is not limited thereto.

The wavelength of 253.7nm has the effect of destroying pathogenic bacteria and general bacteria such as E. coli, Staphylococcus aureus, Vibrio, and Salmonella by destroying the bacterial DNA.

The rainwater storage tank 700 is installed in the shelter 1 to utilize rainwater to the air purifier to remove fine dust and radon gas in the shelter 1.

Moreover, the water stored in the rainwater storage tank 700 can be reduced to fine dust by sprinkling it on the road without post-treatment, and reused for trees, so as to periodically supply moisture without installing a water bag separately in the street trees. Absorbing water and lowering the temperature in the city center during the summer.

As the air conditioner is included in the shelter 1, the outdoor unit, which is a device for drawing out hot wind generated when the air conditioner is operated, may be included on the outer surface of the shelter 1 cover 1,100.

As shown in Figure 2, the system for providing alleyway environment information through a wired / wireless network includes a shelter (1), a shelter server (10), a terminal (20), an external server (30), and public transportation (40). Can be included.

The shelter 1 can measure the surrounding environment to provide environmental information on the alley.

The shelter server 10 receives the information measured by the shelter 1 and transmits it to the external server 30, receives the information provided by the external server 30, and displays the electric field display device 500, terminal 20 Or it can be transmitted to any one or more of the public transport (40).

In addition, the shelter server 10 may control the air purifier, air conditioner, lighting device, and camera in the shelter 1 according to the received control information.

Furthermore, the shelter server 10 connects with a device included in the shelter 1 and periodically checks the state for the state and control of the device to store information.

Information stored in the shelter server 10 may be periodically backed up by being connected to a database server to prevent information from disappearing due to an error.

The terminal 20 is a device capable of communication through a wired / wireless network.

In the present invention, the terminal 20 is a device that can be carried by a user, and may be any one or more of a smart phone, a wireless laptop, and a tablet PC, but is not limited thereto.

The external server 30 has its own data transmission / reception function, statistical analysis function, atmospheric modeling function using pre-entered terrain information, and information processing function, and operates itself, and can be linked to an external institution server.

The external institution server may include any one or more of the Ministry of Environment server, the Meteorological Agency server, the Fire Department server, the Police Department server, the Ministry of Public Administration and Security server, or the government office server, but is not limited thereto.

In addition, the external server 30 includes an external environment monitoring unit 31, an internal environment monitoring unit 32, a safety monitoring unit 33, a bus information unit 34, an eco-friendly energy unit 35, and a water saving unit 36 ), A door control unit 37, a wifi unit 38 may be included.

The external environment monitoring unit 31 transmits external environment information such as precipitation, air pollutants, fine dust, radon gas, temperature, and humidity information measured by an external measuring device 300 that measures the external environment of the shelter 1. / After being transmitted to the shelter server 10 by the receiving device 400, the information is first stored, and then transmitted and stored from the shelter server 10 to the external server 30 through a wired / wireless network, and stores external environment information. To create.

The external environment information is systematically documented in the external server 30, and based on this, the air information for each region is used 3 by using atmospheric modeling according to the terrain data (for example, height of the terrain, wind information, etc.). Dimensional air quality can be used as environmental information for alleyways through air diffusion modeling.

That is, the shelter 1 becomes an air quality measuring station and can receive more accurate air pollution information of a real living space.

In addition, the stored external environment information can be provided to an external institution server to prepare measures against air pollution and to use it as related evidence.

Furthermore, the external environment information is displayed on the electric field display device 500 in the alleyway environment information generated from the external server 30, and at the same time, it is provided to the public transportation 40 or the terminal 20, so that the user provides air information in real time. Can receive

Furthermore, the internal environment information such as air pollutants, fine dust, radon gas, temperature, and humidity information stored in the internal environment monitoring unit 32 and weather information from the external agency server, the Meteorological Agency server, is displayed on the electric field display device 500. You can.

The internal environment monitoring unit 32 transmits / receives internal environment information that is air pollutants, fine dust, radon gas, temperature, and humidity information measured by the internal measuring device 200 that measures the internal environment of the shelter 1. After being transmitted to the shelter server 10 by the device 400, the information is first stored, and then transmitted and stored from the shelter server 10 to the external server 30 through a wired / wireless network, and generates internal environment information. .

At this time, the internal environmental monitoring unit 32 compares the previously input information with the internal environmental information received from the shelter server 10, and internal environmental control information that can be automatically controlled by the air purifier and the air conditioner installed inside the shelter 1 Produces

The internal environment control information generated by the internal environment monitoring unit 32 is transmitted to the shelter server 10 through a wired / wireless network, and the air purifier and air conditioner installed inside the shelter 1 can be automatically controlled.

That is, as the internal environment of the shelter 1 is kept comfortable, the user's complaint can be resolved by keeping the internal environment comfortable.

Moreover, it can have the effect of using public transportation to mitigate traffic problems and air pollution.

The reliable monitoring unit 33 transmits image information photographed by a camera installed inside the shelter 1 to the shelter server 10 by the transmission / reception device 400, and after the information is firstly stored, wired / wireless It is transmitted and stored from the shelter server 10 to the external server 30 through a network.

In addition, the automatic monitoring of the security unit 33 is built with artificial intelligence, and is connected to the security bell. When a crime or emergency occurs, video information is transmitted to the fire department server or the police department server, which is an external agency server, in real time. It is possible to dispatch.

That is, the security monitoring unit 33 can detect a crime or an emergency situation and provide a space for the user to feel relieved.

In addition, it is possible to expect an effect that can be prevented in advance by providing the awareness that the shelter 1 is a safe space for crime.

The bus information unit 34 receives the existing bus control information (route, arrival waiting, movement status, etc.) from the traffic safety agency server, which is an external institution server, and transmits it to the shelter server 10 through a wired / wireless network. The bus control information may be provided by transmitting to the electric field display device 500 included in (1).

Furthermore, the bus information unit 34 provides various information to users by displaying nearby tourist spots, restaurants, municipal news, administrative information, living information, promotional materials, etc. from the government office server, which is an external institution server, on the electric field display device 500. You can.

Furthermore, as the standby button included in the electric field display device 500 is operated, standby information may be transmitted to the public transportation 40.

That is, when the user presses the standby button having the bus number to ride, the waiting information is transmitted to the bus having the corresponding number, and the bus driver operating the corresponding bus can detect this and safely burn the user waiting at the corresponding stop. have.

For this reason, the shelter 1 has an advantage in that information is exchanged in both directions by providing the waiting driver with waiting information at the same time as the waiting space.

The eco-friendly energy unit 35 stores the electrical energy generated through the solar panel in an energy storage device, stores energy information in an external server 30, and through a shelter server 10 by a wired / wireless network. The shelter 1 can secure power that can be controlled.

The energy information may include the amount of energy stored in the energy storage device.

The water saving unit 36 transmits precipitation information measured through the external measurement device 300 to the shelter server 10 by the transmission / reception device 400, and after the information is firstly stored, the wire / wireless network is established. It is transmitted from the shelter server 10 to the external server 30 and stored.

At this time, the shelter server 10 may compare the input information and precipitation information, and the rainwater storage tank 700 installed outside the shelter 1 may be automatically controlled.

That is, when the measured precipitation information exceeds 1mm / hr, the rainwater storage tank cover 710 is opened to store rainwater.

If the measured precipitation information is less than 1 mm / hr or exceeds the monthly water level, the rainwater storage tank cover 710 may be closed to prevent rainwater from evaporating.

The door control unit 37 may recognize a user by a button or an infrared sensor and simultaneously operate an air curtain to block outside air and fine dust while maintaining the temperature in the shelter 1.

The Wi-Fi unit 38 may provide a public Wi-Fi service in the shelter 1 by the Wi-Fi supply device, thereby providing a more convenient living environment to the user.

The public transport 40 may include a bus, tram, subway, etc., but is not limited thereto.

The method for providing environmental information on the alleyway according to the external environment (S100) is first performed by a step (S110) in which external environmental information is measured by the external measurement device 300, air pollutants and fine dust outside the shelter 1, External environmental information, such as radon gas, temperature, and humidity information, is measured.

The measured external environment information is transmitted to the shelter server 10 by the transmission / reception device 400 (S120).

At this time, the shelter server 10 may primarily store the measured external environment information to prevent the information from disappearing due to an error.

Next, a step (S130) of transmitting the organized information through the wired / wireless network to the external server 30 is performed.

Subsequently, a step S140 is performed in which the external server 30 transmits the processed information through the self-analyzed atmospheric modeling result and the data received from the external institution server to the shelter server 10 using the received data (S140).

The external server 30 is operated by itself with a data transmission / reception function, a statistical analysis function, an atmospheric modeling function using an inputted terrain information, and an information processing function, and can be linked with an external institution server.

Here, the external institution server may be a server of the Ministry of Environment and a server of the Korea Meteorological Administration, but is not limited thereto.

In addition, the external environment monitoring unit 31 generates airway environment information through 3D air quality air diffusion modeling using air information for each region by using air modeling according to terrain data based on the gathered information.

The alleyway environment information may include precipitation, air pollutants, fine dust, radon gas, temperature, and humidity information depending on the terrain.

At this time, the external environment information is checked in the external environment monitoring unit 31 of the external server 30 and systematically arranged to be stored as environmental information on the alley.

Step S150 in which alley environment information is transmitted to any one or more of the shelter 1, the terminal 20, or the public transportation 40 is performed.

It can be displayed on the electric field display device 500 included in the shelter (1).

In addition, the terminal 20 may receive alley environment information through an app.

Furthermore, the public transportation 40 may receive environment information of the alleys of the corresponding area or stop in real time through a billboard or voice installed in the bus.

The method of controlling the air purifier and the air conditioner installed inside the shelter 1 according to the internal environment (S200) is first the air pollutants, fine dust, radon gas, temperature, and humidity information measured by the internal measuring device 200. Environmental information is measured separately.

The measured internal environment information is transmitted to the shelter server 10 by the transmission / reception device 400 (S220).

At this time, the shelter server 10 may store the measured internal environment information as primary to prevent the information from disappearing due to an error.

Next, a step (S230) of generating internal environment control information in the external server 30 is performed.

At this time, the external server 30 checks and stores the internal environment information in the internal environment monitoring unit 32.

Then, the internal environment control information is generated by comparing the previously input information with the internal environment information received from the shelter server 10.

At this time, the pre-input information is shown in Table 1 below.

Item standard Item standard NO ₂ 0.05ppm or less benzene 30㎍ / ㎥ or less SO ₂ 80㎍ / ㎥ or less fine dust 100㎍ / ㎥ or less O ₃ 0.06ppm or less Ultrafine dust 50㎍ / ㎥ or less CO 10ppm or less Radon gas 148㏃ / ㎥ or less CO ₂ 1,000ppm or less Temperature (summer time) 24 ~ 26 ℃ VOC 500㎍ / ㎥ or less Temperature (winter season) 19 ~ 23 ℃ Formaldehyde 100㎍ / ㎥ or less Humidity 40-70%

For example, when the fine dust (PM-10) is measured from 110 µg / m 3 among the internal environmental information, the internal environmental control information may be generated to operate the air purifier because the previously input information is 100 µg / m 3 or less.

In addition, when ultrafine dust (PM-2.5) is measured from 49µg / ㎥ among the internal environment information, the pre-entered information is 50µg / ㎥ or less, which satisfies this, thereby generating internal environmental control information that does not operate the air purifier. Can be.

Furthermore, if any one or more of NO ₂ , SO ₂ , O ₃ , CO, CO ₂ , VOC, formaldehyde, benzene, or radon gas among the internal environmental information falls outside the range of the previously input information in Table 1, the air purifier The internal environment control information may be generated to operate.

If the indoor temperature in summer is measured at 30 ° C, the internal environment control information may be generated so that the air conditioner operates because the previously input information is 24 to 26 ° C.

In addition, when the indoor temperature in summer is measured at 23 ° C, the internal environment control information may be generated so that the air conditioner is not operated because the previously input information is 24 to 26 ° C.

When the indoor temperature in winter is measured at 15 ° C, the internal environment control information may be generated to operate the heater since the previously input information is 19 to 23 ° C.

In addition, when the indoor temperature in winter is measured at 24 ° C, the internal environmental control information may be generated so that the heater is not operated because the previously input information is 19 to 23 ° C.

The internal environmental control information is transmitted to the shelter server 10 through the wired / wireless network, and the operation of the air purifier and / or the air conditioner installed inside the shelter 1 is performed (S240).

Subsequently, a step S250 in which the air cleaner and / or the air conditioner is operated according to the internal environment control information is transmitted to the internal environment monitoring unit 32 through a wired / wireless network to confirm whether the operation is performed.

If, in step S250, an error occurs in the operation according to the internal environment control information, it may be repeatedly performed until the operation or non-operational operation S240 is properly performed.

In the method of providing security information through the camera (S300), a step (S310) of generating image information inside the shelter 1 is performed by the camera.

The image information is stored in the shelter server 10 through the transmission / reception device 400 (S320).

Next, a step S330 in which image information is transmitted to the external server 30 through a wired / wireless network is performed.

At this time, the external server 30 is a security monitoring unit 33, the artificial intelligence automatic recognition is built to determine whether a crime or emergency.

In case the artificial intelligence automatic recognition is not recognized, the safety bell and the safety monitoring unit 33 may be connected.

In the safety monitoring unit 33, step S340 in which security control information is generated is performed.

In the step of generating security control information (S340), when the crime or emergency situation is discovered by automatic AI recognition, or when the security bell is activated, the video information is transmitted to the external agency server through the wired / wireless network, such as the fire department server or the police agency. It is sent to the server.

If a crime or an emergency does not occur or the relief bell does not work, return to the step (S330) in which the video information is transmitted to the external server 30 through the wired / wireless network (S330) to repeatedly store the video information and commit the crime B. You can check whether there is an emergency.

In step S400 in which bus information and standby information are transmitted / received, step S410 in which bus information is received in the shelter server 10 is first performed.

The bus information may include bus location information, route information, arrival information for each stop, and stop information through an external server 30 connected to the server of the Ministry of Public Administration and Security, which is an external institution server.

Thereafter, the step S420 in which bus information is displayed as the shelter 1 through the transmission / reception device 400 is performed.

At this time, it may be displayed on the electric field display device 500 included in the shelter (1).

Next, a step S430 in which riding information is transmitted to the public transportation 40 according to whether waiting information is generated in the bus information unit 34 through a wired / wireless network is performed (S430).

When the user selects the standby button of the bus number to be included in the electric field display device 500, standby information is generated.

The generated waiting information is sent to the bus driver corresponding to the bus number the user wants to ride, and the bus driver can detect this in advance and safely burn the user waiting at the corresponding stop.

If waiting information is not generated, the waiting button disappears as the corresponding bus passes the stop, and a waiting button for the next arriving bus is newly generated.

The rainwater storage tank 700 control method (S500) is first performed by the external measuring device 300, the step (S510) of measuring the precipitation of the external environment information.

The measured precipitation information is transmitted to the shelter server 10 by the transmission / reception device 400 (S520).

At this time, precipitation information measured by the shelter server 10 is stored.

Step S530 in which the precipitation information measured by the external server 30 is transmitted through the wired / wireless network is performed (S530).

Thereafter, a step S540 of performing control information of the rainwater storage tank cover 710 by comparing the preset control information and the measured precipitation information in the water saving unit 36 is performed.

At this time, the preset control information is generated when the precipitation exceeds 1mm / hr based on 1mm / hr, control information for opening the rainwater storage tank cover 710 is generated.

If the precipitation becomes 1 mm / hr or less or exceeds the monthly standard, control information for closing the rainwater storage tank cover 710 is generated.

That is, clean rainwater can be recycled.

The generated control information is transmitted to the shelter server 10 through a wired / wireless network, and transmitted to the shelter 1 by the transmission / reception device 400 to control the rainwater storage tank cover 710 (S550). Is performed.

Shelter (1) of the present invention has an effect that can be observed by tracking the cause of fine dust caused by the road environment and road operation.

In the present invention, the shelter (1) is a structure that facilitates factory assembly movement, and includes a first shelter including several functions and devices, and a second shelter equipped with only some functions, so that it can be attached and detached as much as necessary. It is a spatial structure.

The first shelter includes a power supply device 100, an internal measurement device 200, an external measurement device 300, a transmission / reception device 400, an electric field display device 500, a door 600, an air cleaner, an air conditioner, Lighting devices, cameras, relief bells, Wi-Fi supplies, chairs, digital chargers, rainwater storage tanks 700, solar panels, and energy storage devices may be included, but are not limited to this because they may vary depending on local characteristics.

The second shelter may be installed by excluding some devices from the first shelter according to regions and locations, but is not limited thereto.

In addition, the size of the bottom surface of the shelter 1 may be formed of 6m ² type, 12m ² type, 18m ² type, 24m ² type, and 36m ² type, but is not limited thereto.

Furthermore, the shelter 1 may be constructed at a place where a person stays for a certain period of time, such as a bus stop, a tram stop, a taxi stand, a park, a rest area, a smoking booth, and a drowsiness shelter.

In particular, in the present invention, the shelter 1 has an advantage of saving construction time and cost as it can be used by connecting a first shelter and / or a second shelter to an existing bus stop or taxi stand.

The present invention is an industry capable of providing accurate air information in a living space by measuring environmental information such as fine dust, temperature, and humidity in a place where a person stays for a certain time with a smart shelter and providing measurement information to a shelter, a bus, or a terminal. It is an available invention.

Claims (10)

In the stop smart shelter,
A power supply 100 that supplies power to the shelter 1;
NO, NO ₂ , NOx, N ₂ O, NH ₃ , SO, SO ₂ , SOx, O ₃ , CO, CO ₂ , H ₂ , H ₂ S, O ₂ , VOC, formaldehyde, benzene, SF inside the shelter ₆ , He, galden, odor substances, fine dust, ultra-fine dust, radon, an internal measuring device 200 for measuring any one or more of temperature or humidity;
Precipitation outside the shelter, NO, NO ₂ , NOx, N ₂ O, NH ₃ , SO, SO ₂ , SOx, O ₃ , CO, CO ₂ , H ₂ , H ₂ S, O ₂ , VOC, formaldehyde, benzene , SF ₆ , He, galden, malodorous substances, fine dust, ultrafine dust, radon, temperature, humidity, wind direction or an external measuring device 300 for measuring any one or more of wind speed;
A transmission / reception device 400 for transmitting / receiving information inside or outside the shelter to any one or more of a shelter server 10, a terminal 20, an external server 30, or public transportation 40 through a wired or wireless network;
An electric field display device 500 including a digital screen or a touch screen capable of displaying information received from the shelter server 10 and the external server 30; And
When the user comes in and out, the door 600 includes an air curtain to prevent the inflow of fine dust; includes,
The shelter server 10 receives the measured information from the shelter 1 and transmits it to the external server 30, and receives the processed air information from the external server 30 through statistical analysis or atmospheric modeling,
The external server 30 is operated by itself with data transmission / reception function, statistical analysis function, atmospheric modeling function using pre-entered terrain information, and information processing function, interlocked with an external institution server,
Any one or more of the rainwater storage tank 700, a solar panel, an energy storage device (ESS) or an inverter is included outside the shelter 1,
Inside the shelter (1) primarily removes fine dust and radon gas in the shelter (1) in a wet manner using rainwater and an organic solvent stored in the rainwater storage tank (700), and secondarily in a dry manner using a dry filter Smart air shelter, characterized in that the air purifier to remove dust, bacteria and odors in the shelter (1) is included.
delete delete delete The method according to claim 1,
Inside the shelter (1), characterized in that any one or more of the air conditioner, lighting, camera, relief bell, Wi-Fi supply, chair or digital charger, stop smart shelter.
delete The method according to claim 1,
Rainwater storage tank 700 is characterized in that the rainwater storage tank cover 710 is opened when the effective precipitation exceeds 1mm / hr to store rainwater, smart shelter stop.
delete A method of providing environmental information on an alleyway according to the external environment using the smart shelter of claim 1 (S100),
Precipitation, NO, NO ₂ , NOx, N ₂ O, NH ₃ , SO, SO ₂ , SOx, O ₃ , CO, CO ₂ , H ₂ , H ₂ S, O _{2 with} external measuring device 300 , VOC, formaldehyde, benzene, SF ₆ , He, galden, odor substances, fine dust, ultrafine dust, radon, temperature, humidity, wind direction, or wind speed of any one or more external environmental information is measured (S110);
The measured external environment information is transmitted to the shelter server 10 by the transmitting and receiving device 400 (S120);
Transmitting the organized information organized through a wired or wireless network to the external server 30 (S130);
Transmitting the processed information through the standby modeling result and the data received from the external institution server to the shelter server 10 using the data received from the external server 30 (S140);
It includes the step (S150) of the transmitted alley environment information is provided to the electric field display device 500 of the shelter (1),
Alleyway environmental information includes precipitation, air pollutants, fine dust, radon gas, temperature, and humidity information depending on the terrain.
The external server 30 is operated by itself with data transmission / reception function, statistical analysis function, atmospheric modeling function using pre-entered terrain information, and information processing function, and is characterized by being interlocked with an external agency server. How to provide alley environment information according to the external environment. delete

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